DocumentCode
1051905
Title
Uniqueness of the generators of brain evoked potential maps
Author
Amir, Avner
Author_Institution
Abratech Corp., Mill Valley, CA, USA
Volume
41
Issue
1
fYear
1994
Firstpage
1
Lastpage
11
Abstract
This study considers the uniqueness of neuronal generators of human brain evoked potentials measured on the scalp using the physical and mathematical properties of the volume conductor model. The results are applicable to a realistic, nonhomogeneous head shape where the potential map is known on a continuous set of points on the scalp. It is shown that sources which occupy "zero volume" in space such as point dipoles or sources distributed on an open surface or a line are uniquely defined by the potential maps. Finite volume nonoverlapping sources are also uniquely defined by their potential map. However, there are infinitely many different but overlapping sources which can create the same map. Several examples of such sources are provided. It is shown that there is a unique, minimum volume source which can be defined in this case. Results suggest that if a reconstruction of the sources starts from a continuous scalp map (obtained by interpolation of the data between electrode sites), one can obtain unique results concerning the source parameters that are not available in a search for a source whose potential map fits only at a discrete set of points.
Keywords
bioelectric potentials; brain models; neurophysiology; brain evoked potential maps; continuous scalp map; data interpolation; discrete points set; electrode sites; finite volume nonoverlapping sources; mathematical properties; minimum volume source; neuronal generators uniqueness; physical properties; realistic nonhomogeneous head shape; source parameters; Biomedical measurements; Brain modeling; Conductors; Electrodes; Goniometers; Humans; Mathematical model; Orthopedic surgery; Scalp; Volume measurement; Brain; Brain Mapping; Evoked Potentials; Humans; Models, Neurological; Models, Theoretical;
fLanguage
English
Journal_Title
Biomedical Engineering, IEEE Transactions on
Publisher
ieee
ISSN
0018-9294
Type
jour
DOI
10.1109/10.277265
Filename
277265
Link To Document